IPLOOK is a software company which provide 3/4/5G core network for telecom operators and vertical networks. We deploy everything on X86 server and NFV platform.
in the figure 2.3.1.1-2, Compact Deployment integrates almost all the network elements in one IPC(Industrial Personal Computer), including MME, SGW, PGW and HSS. The management and maintenance are much easier than traditional way
IPLOOK IKEPC 500 series has already launched.
IKEPC series, a highly compact, flexible and cost-effective platform, combines MME, PGW, SGW, HSS, PCRF, IMS and DRA network elements all in one box, perfectly meeting the needs of operators and enterprises.
This document briefly introduces IKEPC 500 series’ network architecture, application scenarios, key features and hardware specifications, etc.
Learn more about IKEPC 500 series through our website: https://www.iplook.com/products/compact-epc
The latest version of IPLOOK Introduction is upgraded!
This document introduces IPLOOK from three aspects:
-Who are we?
-What products and solutions we can provide?
-Why choose IPLOOK?
Click and learn more details about IPLOOK: https://www.iplook.com/
The PGW provides connectivity between the UE and external packet data networks. It provides the entry and exit point of traffic for the UE. A UE may have simultaneous connectivity with more than one PGW for accessing multiple Packet Data Networks. The PGW performs policy enforcement, packet filtering for each user, charging support, lawful interception and packet screening. The SGW and PGW function could be realized as a single network element.
5G-Advanced Technology Evolution from a Network Perspective White Paper 2.0IPLOOK Networks
"5G-Advanced Technology Evolution from a Network Perspective" white paper 2.0 is officially released on March 1, 2022.
From the perspective of network, this document clarifies the evolution of 5G-Advanced-Technology in details (5G Development, 5G-Advanced Architecture and Technical Trends, key 5G-Advanced Technologies).
Despite the evolution of mobile markets and services, from older generations (2G and 3G) to 4G and 5G, the need for SS7 STPs will continue for decades. IPLOOK’ Diameter Signaling Controller solutions can be configured to provide essential STP functionality for core, edge and interconnect deployments.
in the figure 2.3.1.1-2, Compact Deployment integrates almost all the network elements in one IPC(Industrial Personal Computer), including MME, SGW, PGW and HSS. The management and maintenance are much easier than traditional way
IPLOOK IKEPC 500 series has already launched.
IKEPC series, a highly compact, flexible and cost-effective platform, combines MME, PGW, SGW, HSS, PCRF, IMS and DRA network elements all in one box, perfectly meeting the needs of operators and enterprises.
This document briefly introduces IKEPC 500 series’ network architecture, application scenarios, key features and hardware specifications, etc.
Learn more about IKEPC 500 series through our website: https://www.iplook.com/products/compact-epc
The latest version of IPLOOK Introduction is upgraded!
This document introduces IPLOOK from three aspects:
-Who are we?
-What products and solutions we can provide?
-Why choose IPLOOK?
Click and learn more details about IPLOOK: https://www.iplook.com/
The PGW provides connectivity between the UE and external packet data networks. It provides the entry and exit point of traffic for the UE. A UE may have simultaneous connectivity with more than one PGW for accessing multiple Packet Data Networks. The PGW performs policy enforcement, packet filtering for each user, charging support, lawful interception and packet screening. The SGW and PGW function could be realized as a single network element.
5G-Advanced Technology Evolution from a Network Perspective White Paper 2.0IPLOOK Networks
"5G-Advanced Technology Evolution from a Network Perspective" white paper 2.0 is officially released on March 1, 2022.
From the perspective of network, this document clarifies the evolution of 5G-Advanced-Technology in details (5G Development, 5G-Advanced Architecture and Technical Trends, key 5G-Advanced Technologies).
Despite the evolution of mobile markets and services, from older generations (2G and 3G) to 4G and 5G, the need for SS7 STPs will continue for decades. IPLOOK’ Diameter Signaling Controller solutions can be configured to provide essential STP functionality for core, edge and interconnect deployments.
What Makes 5G Network Different - Digital Nasional BerhadDigitalNational
5G is the next generation of mobile networks that will provide faster speeds, greater capacity, and low latency. It will allow for new applications and use cases across various industries. Some key benefits of 5G include enhanced mobile broadband, fixed wireless access, massive IoT, industrial IoT, and critical IoT applications. 5G will enable an estimated $13 trillion in global economic benefits by 2035.
IPLOOK Networks provides 3G, 4G, and 5G core network solutions based on NFV technology. They have over 60 employees with more than 80% in R&D and technical support. Their products include EPC, IMS, 3G elements, 5G core, and NB-IoT core. They offer solutions for WISPs, MVNOs, MNOs, vertical networks, and IoT. IPLOOK has deployments in countries around the world and aims to provide customized, high availability networks that lower costs.
Introducing our 5G Platform for the first movers in 5G, the first completely end-to-end solution that combines core and radio solutions in 5G to enable new opportunities and use cases
This document discusses the evolution from 4G LTE networks to 5G networks. It outlines the economic and technical drivers requiring the development of 5G, including the need for higher broadband speeds, improved quality of services like VR and 3D video, and connectivity for billions more IoT devices. 5G will fulfill three main use cases - enhanced broadband, massive machine communications, and ultra-reliable low latency communications. Realizing 5G's full potential will depend on new network architectures like network slicing, virtualization, and edge computing. 5G will also enable novel applications across many industries and require new ownership and business models for networks.
The document discusses 5G network architecture and functional core (5GC). Key points include:
- Network slicing is a key 5G enabler that allows for separation of concerns, diverging use cases, and reduced time to market.
- The 5G core standard defines a service-based architecture where network functions can interact through interfaces to enable multi-vendor integration and flexibility.
- The 5GC introduces new network functions and a split between control and user plane functions, replacing the 4G Evolved Packet Core (EPC).
This presentation is highlighting the architecture of 5G network and the need for a very efficient Management and Orchestration environnement, very automated and autonomous that monitors the network and services and trigger actions to optimize resources and meet quality of service.
5G UE Simulator is capable of simulating and testing several devices and user equipment to recreate unique behavior for every device and puts the network RAN under stress to make sure its robustness, performance & functionalities. We provide the foremost cost-effective solution for validating LTE and 5G RAN testing with multi-UE simulation capabilities achieving the exceptional capacity.
"5G-Advanced Technology Evolution from a Network Perspective" white paper is officially released on Aug 5, 2021.
From the perspective of network, this document clarifies the evolution of 5G-Advanced-Technology in details.
Join ITU today and apply for an International Mobile Subscriber Identity (IMSI) ranges signified by the shared Mobile Country Code ‘901’, which has no ties to any single country. ‘Global SIMs’ are important for enabling cross-border global M2M & IoT connectivity, helping manufacturers to build once and sell anywhere.
For more information contact: membership@itu.int
The document discusses 5G networks and Internet of Things (IoT) architecture. For 5G, it describes the key requirements of ultra-high radio speed, ultra-low latency, and massive connectivity. This will require redefining cloud-RAN/fronthaul architecture with distributed 5G cores and packet-based fronthaul to handle high traffic loads. For IoT, it discusses the growth of the market and challenges around standards, security and privacy, and monetization. It provides an overview of key platform architectures from Microsoft, AWS, and Google for IoT. The biggest challenge remains developing solutions that can scale to handle the massive number of IoT devices connecting to 5G networks.
LoRaWAN and 3GPP technologies cover all Industrial IoT use casesErika Gelinard
we examine both Mobile IoT (NB-IoT, Cat-M1, Cat-1) and LoRaWAN, with the objective to demonstrate the complementary aspects of the two technologies. We show how operators tap into unlicensed IoT market space using LoRaWAN and complement it with licensed Mobile IoT.
5G, IoT and AI: An overview about strategies for business provides an introduction to 5G technologies and their potential impact on business. The eBook discusses how 5G will enable new capabilities through edge computing, IoT, and AI. It also explores strategies for network modernization and standards organizations driving 5G innovation to help businesses prepare for the opportunities of a 5G future.
Network slicing is a method of creating multiple unique logical and virtual networks on a common multi-domain infrastructure.
A different approach to view is that network slicing overlays multiple virtual networks on a shared network. Each part of the network can have its own logical topology, security rules and performance characteristics-within the limits imposed by the basic physical network.
Network slicing is a key function of 5G.
5G network slicing is a virtual network architecture that belongs to the same family as Software-defined Networking (SDN) and Network Function Virtualization (NFV).
The benefits of network slicing are:
It can help network operators reduce expenditure (OPEX) and capital expenditure (CAPEX).
It greatly improves the operational efficiency and time to market for delivering 5G network services.
A single network can be used to provide various services according to user needs and various use cases.
Network operators can allocate the proper amount of required resources as per network slice.
It overcomes all the shortcomings of the most popular QoS solution "DiffServ".
Fundamentals of 5G Network Slicing Training by Tonex
Fundamentals of 5G Network Slicing Training focuses on key principles, architecture and implementation of 5G network slicing.
Participants discover the way to effectively use network slicing across 5G core, RAN and transport networks. you'll also find out how network slicing is one among key components that provide 5G operation.
Audience:
Software Engineers
Network Design Engineers
Managers
Product management, marketing, planning, operations and employees with little or no experience in 5G or network slicing.
People who have 5G network experience but have never received any formal training on network slicing.
Learning Objectives:
How to implement network slicing in 5G networks
How to lay the foundation for 5G network slicing monetization
How to plan and design the lifecycle management of network slicing
How to implement network slicing and be able to support various services with specific performance or control requirements on a common network platform
Summary of 5G use cases and applications
5G network overview
How to implement operational KPIs on slice/service instantiation, termination, activation, deactivation, usage events, dynamic resource consumption based on slice/service/network functions, and performance and analysis events based on the set of network slice performance indicators
Course Agenda:
Overview of 5G Networks
Digital Transformation and Network Slicing
Network Slicing Deployment
Learn More;
https://www.tonex.com/training-courses/fundamentals-of-5g-network-slicing/
The document provides an overview of a private 5G seminar hosted by The Besen Group. The seminar consists of three sessions that cover private 5G go-to-market strategy, use cases, and case studies from industry players. It also includes a customized business case development workshop. The seminar aims to help participants understand the private 5G market opportunity and develop a business plan to deploy a private 5G network.
This document discusses Samsung's vision for 5G mobile networks and services. It outlines that 5G will enable an Internet of Things by supporting up to 50 billion connected devices by 2020. 5G networks aim to offer gigabit speeds, low latency, and ubiquitous connectivity to enable immersive services like virtual and augmented reality. The document also outlines Samsung's proposed "5G rainbow" performance requirements across peak data rates, latency, simultaneous connections, mobility, and other metrics to support these new 5G services and experiences.
Digital transformation is at a critical juncture, with a diverse range of industries making changes that signifi-
cantly transform the way people live and work. These shifts have been driving advancements in the financial,
transportation, manufacturing, governmental, and many more sectors. Innovative mobile broadband technologies,
an underlying infrastructure, are a key driving force behind the digitalization of all walks of life. With
the rapid development of 5G, an increasing number of new applications and business models will reshape
the social and economic formation.
Such changes will stimulate strategic planning regarding industry opportunities, technical evolution,
network architecture, and other areas. Telecom operators are growing increasingly concerned with the
creation of a new target network to maximize return on investment (ROI) and achieve business success while
maintaining a competitive edge for the future. Global operators are promoting early deployment of 5G and
innovative business models through continuous 4G evolution. This has led to today's business achievements
and has laid a solid foundation for the huge potential of 5G.
With a gradual consensus being formed for the entire industry, all related players in the industry chain will
develop close collaboration to embrace a brighter future for the wireless network industry.
Continuous 4G evolution, a road to 5G!
Etsi wp24 mec_deployment_in_4_g_5g_finalSaurabh Verma
The white paper discusses deploying multi-access edge computing (MEC) in 4G networks and the evolution towards 5G. It describes several scenarios for deploying MEC in 4G, including placing the MEC platform at the base station (bump in the wire), distributing elements of the evolved packet core, and separating control and user planes. Key challenges addressed include session management, mobility, security, charging, and identifying subscribers. The paper also discusses how deploying MEC in 4G can help drive adoption of 5G by establishing an edge cloud infrastructure and leveraging cloud technologies for a smooth evolution.
ZTE Corporation is a leading Chinese telecommunications equipment manufacturer and network solutions provider. It provides products and services to 135 countries and regions globally. ZTE aims to be the world leader in communications by 2008 and a world-class excellent enterprise by 2015. It offers a range of wireless, wireline, and transmission products and services including handsets, microwave transmission, servers, and optical transport.
- The ZTE 5G Cloud ServCore provides a standards-compliant, open, service-based 5G core network architecture that supports network slicing and multi-access from 2G, 3G, 4G, and 5G.
- It uses a stateless, microservices-based design with network functions represented as independent, reusable services. These services communicate via service-based interfaces.
- ZTE's carrier DevOps system supports the full lifecycle of network slicing from design and testing to deployment, monitoring, and continuous optimization through closed-loop automation.
IPLOOK enables innovative and impactful experiences for our customers, crafting customized MNO solution, MVNO solution, FWA solution, and other mobile core solutions to meet their specific needs. We believe in openness and collaboration, continually improving our development capabilities to create endless possibilities with exisiting and new customers.
5G networks will provide vastly increased capabilities over 4G networks. 5G is expected to deliver peak data rates of up to 10 Gbps, end-to-end latencies of 1 ms or less, connectivity for at least 1 million devices per square kilometer, and network energy efficiency improvements of up to 90%. However, 5G networks are still in development and large-scale commercial deployments are not expected until around 2020. In the meantime, 4G networks are being enhanced through technologies like LTE-Advanced, VoLTE, and WiFi calling to help meet some 5G requirements and enable new applications and use cases.
What Makes 5G Network Different - Digital Nasional BerhadDigitalNational
5G is the next generation of mobile networks that will provide faster speeds, greater capacity, and low latency. It will allow for new applications and use cases across various industries. Some key benefits of 5G include enhanced mobile broadband, fixed wireless access, massive IoT, industrial IoT, and critical IoT applications. 5G will enable an estimated $13 trillion in global economic benefits by 2035.
IPLOOK Networks provides 3G, 4G, and 5G core network solutions based on NFV technology. They have over 60 employees with more than 80% in R&D and technical support. Their products include EPC, IMS, 3G elements, 5G core, and NB-IoT core. They offer solutions for WISPs, MVNOs, MNOs, vertical networks, and IoT. IPLOOK has deployments in countries around the world and aims to provide customized, high availability networks that lower costs.
Introducing our 5G Platform for the first movers in 5G, the first completely end-to-end solution that combines core and radio solutions in 5G to enable new opportunities and use cases
This document discusses the evolution from 4G LTE networks to 5G networks. It outlines the economic and technical drivers requiring the development of 5G, including the need for higher broadband speeds, improved quality of services like VR and 3D video, and connectivity for billions more IoT devices. 5G will fulfill three main use cases - enhanced broadband, massive machine communications, and ultra-reliable low latency communications. Realizing 5G's full potential will depend on new network architectures like network slicing, virtualization, and edge computing. 5G will also enable novel applications across many industries and require new ownership and business models for networks.
The document discusses 5G network architecture and functional core (5GC). Key points include:
- Network slicing is a key 5G enabler that allows for separation of concerns, diverging use cases, and reduced time to market.
- The 5G core standard defines a service-based architecture where network functions can interact through interfaces to enable multi-vendor integration and flexibility.
- The 5GC introduces new network functions and a split between control and user plane functions, replacing the 4G Evolved Packet Core (EPC).
This presentation is highlighting the architecture of 5G network and the need for a very efficient Management and Orchestration environnement, very automated and autonomous that monitors the network and services and trigger actions to optimize resources and meet quality of service.
5G UE Simulator is capable of simulating and testing several devices and user equipment to recreate unique behavior for every device and puts the network RAN under stress to make sure its robustness, performance & functionalities. We provide the foremost cost-effective solution for validating LTE and 5G RAN testing with multi-UE simulation capabilities achieving the exceptional capacity.
"5G-Advanced Technology Evolution from a Network Perspective" white paper is officially released on Aug 5, 2021.
From the perspective of network, this document clarifies the evolution of 5G-Advanced-Technology in details.
Join ITU today and apply for an International Mobile Subscriber Identity (IMSI) ranges signified by the shared Mobile Country Code ‘901’, which has no ties to any single country. ‘Global SIMs’ are important for enabling cross-border global M2M & IoT connectivity, helping manufacturers to build once and sell anywhere.
For more information contact: membership@itu.int
The document discusses 5G networks and Internet of Things (IoT) architecture. For 5G, it describes the key requirements of ultra-high radio speed, ultra-low latency, and massive connectivity. This will require redefining cloud-RAN/fronthaul architecture with distributed 5G cores and packet-based fronthaul to handle high traffic loads. For IoT, it discusses the growth of the market and challenges around standards, security and privacy, and monetization. It provides an overview of key platform architectures from Microsoft, AWS, and Google for IoT. The biggest challenge remains developing solutions that can scale to handle the massive number of IoT devices connecting to 5G networks.
LoRaWAN and 3GPP technologies cover all Industrial IoT use casesErika Gelinard
we examine both Mobile IoT (NB-IoT, Cat-M1, Cat-1) and LoRaWAN, with the objective to demonstrate the complementary aspects of the two technologies. We show how operators tap into unlicensed IoT market space using LoRaWAN and complement it with licensed Mobile IoT.
5G, IoT and AI: An overview about strategies for business provides an introduction to 5G technologies and their potential impact on business. The eBook discusses how 5G will enable new capabilities through edge computing, IoT, and AI. It also explores strategies for network modernization and standards organizations driving 5G innovation to help businesses prepare for the opportunities of a 5G future.
Network slicing is a method of creating multiple unique logical and virtual networks on a common multi-domain infrastructure.
A different approach to view is that network slicing overlays multiple virtual networks on a shared network. Each part of the network can have its own logical topology, security rules and performance characteristics-within the limits imposed by the basic physical network.
Network slicing is a key function of 5G.
5G network slicing is a virtual network architecture that belongs to the same family as Software-defined Networking (SDN) and Network Function Virtualization (NFV).
The benefits of network slicing are:
It can help network operators reduce expenditure (OPEX) and capital expenditure (CAPEX).
It greatly improves the operational efficiency and time to market for delivering 5G network services.
A single network can be used to provide various services according to user needs and various use cases.
Network operators can allocate the proper amount of required resources as per network slice.
It overcomes all the shortcomings of the most popular QoS solution "DiffServ".
Fundamentals of 5G Network Slicing Training by Tonex
Fundamentals of 5G Network Slicing Training focuses on key principles, architecture and implementation of 5G network slicing.
Participants discover the way to effectively use network slicing across 5G core, RAN and transport networks. you'll also find out how network slicing is one among key components that provide 5G operation.
Audience:
Software Engineers
Network Design Engineers
Managers
Product management, marketing, planning, operations and employees with little or no experience in 5G or network slicing.
People who have 5G network experience but have never received any formal training on network slicing.
Learning Objectives:
How to implement network slicing in 5G networks
How to lay the foundation for 5G network slicing monetization
How to plan and design the lifecycle management of network slicing
How to implement network slicing and be able to support various services with specific performance or control requirements on a common network platform
Summary of 5G use cases and applications
5G network overview
How to implement operational KPIs on slice/service instantiation, termination, activation, deactivation, usage events, dynamic resource consumption based on slice/service/network functions, and performance and analysis events based on the set of network slice performance indicators
Course Agenda:
Overview of 5G Networks
Digital Transformation and Network Slicing
Network Slicing Deployment
Learn More;
https://www.tonex.com/training-courses/fundamentals-of-5g-network-slicing/
The document provides an overview of a private 5G seminar hosted by The Besen Group. The seminar consists of three sessions that cover private 5G go-to-market strategy, use cases, and case studies from industry players. It also includes a customized business case development workshop. The seminar aims to help participants understand the private 5G market opportunity and develop a business plan to deploy a private 5G network.
This document discusses Samsung's vision for 5G mobile networks and services. It outlines that 5G will enable an Internet of Things by supporting up to 50 billion connected devices by 2020. 5G networks aim to offer gigabit speeds, low latency, and ubiquitous connectivity to enable immersive services like virtual and augmented reality. The document also outlines Samsung's proposed "5G rainbow" performance requirements across peak data rates, latency, simultaneous connections, mobility, and other metrics to support these new 5G services and experiences.
Digital transformation is at a critical juncture, with a diverse range of industries making changes that signifi-
cantly transform the way people live and work. These shifts have been driving advancements in the financial,
transportation, manufacturing, governmental, and many more sectors. Innovative mobile broadband technologies,
an underlying infrastructure, are a key driving force behind the digitalization of all walks of life. With
the rapid development of 5G, an increasing number of new applications and business models will reshape
the social and economic formation.
Such changes will stimulate strategic planning regarding industry opportunities, technical evolution,
network architecture, and other areas. Telecom operators are growing increasingly concerned with the
creation of a new target network to maximize return on investment (ROI) and achieve business success while
maintaining a competitive edge for the future. Global operators are promoting early deployment of 5G and
innovative business models through continuous 4G evolution. This has led to today's business achievements
and has laid a solid foundation for the huge potential of 5G.
With a gradual consensus being formed for the entire industry, all related players in the industry chain will
develop close collaboration to embrace a brighter future for the wireless network industry.
Continuous 4G evolution, a road to 5G!
Etsi wp24 mec_deployment_in_4_g_5g_finalSaurabh Verma
The white paper discusses deploying multi-access edge computing (MEC) in 4G networks and the evolution towards 5G. It describes several scenarios for deploying MEC in 4G, including placing the MEC platform at the base station (bump in the wire), distributing elements of the evolved packet core, and separating control and user planes. Key challenges addressed include session management, mobility, security, charging, and identifying subscribers. The paper also discusses how deploying MEC in 4G can help drive adoption of 5G by establishing an edge cloud infrastructure and leveraging cloud technologies for a smooth evolution.
ZTE Corporation is a leading Chinese telecommunications equipment manufacturer and network solutions provider. It provides products and services to 135 countries and regions globally. ZTE aims to be the world leader in communications by 2008 and a world-class excellent enterprise by 2015. It offers a range of wireless, wireline, and transmission products and services including handsets, microwave transmission, servers, and optical transport.
- The ZTE 5G Cloud ServCore provides a standards-compliant, open, service-based 5G core network architecture that supports network slicing and multi-access from 2G, 3G, 4G, and 5G.
- It uses a stateless, microservices-based design with network functions represented as independent, reusable services. These services communicate via service-based interfaces.
- ZTE's carrier DevOps system supports the full lifecycle of network slicing from design and testing to deployment, monitoring, and continuous optimization through closed-loop automation.
IPLOOK enables innovative and impactful experiences for our customers, crafting customized MNO solution, MVNO solution, FWA solution, and other mobile core solutions to meet their specific needs. We believe in openness and collaboration, continually improving our development capabilities to create endless possibilities with exisiting and new customers.
5G networks will provide vastly increased capabilities over 4G networks. 5G is expected to deliver peak data rates of up to 10 Gbps, end-to-end latencies of 1 ms or less, connectivity for at least 1 million devices per square kilometer, and network energy efficiency improvements of up to 90%. However, 5G networks are still in development and large-scale commercial deployments are not expected until around 2020. In the meantime, 4G networks are being enhanced through technologies like LTE-Advanced, VoLTE, and WiFi calling to help meet some 5G requirements and enable new applications and use cases.
Narrowband Internet of Things (NB-IoT) is a low power wide area network technology developed by 3GPP to enable connectivity for battery powered devices. It uses a narrow bandwidth of 200kHz within existing cellular spectrums to provide long battery life, support for many connected devices, and indoor coverage. NB-IoT can co-exist with 2G, 3G, and 4G networks and is expected to support over 3 billion connected devices by 2020 across various applications in industries like agriculture, healthcare, automotive and more. It operates with low data rates and focuses on enabling low cost, low power devices to wirelessly transmit infrequent small amounts of data over long distances.
4G Network And Its Impact On Wireless CommunicationJessica Navarro
4G networks aim to provide integrated access to voice, video and data communications at speeds up to 100 Mbps for mobile users and 1 Gbps for stationary users. 4G will integrate existing wireless technologies like WiFi and WiMAX. It will offer multimedia services, internet access and IP telephony using an all-IP based network architecture. However, fully deploying 4G networks faces challenges related to spectrum allocation, developing new standards and overcoming security vulnerabilities introduced by the increased network complexity.
6G Training Course Part 7: 6G Technologies - Introduction3G4G
After our successful launch of '5G for Absolute Beginners' course (http://bit.ly/5Gbegins) in 2020, we decided to create an introductory training course on 6G Mobile Wireless Communications technology. The course is ready and the best way to navigate it is via the Free 6G Training page at: https://bit.ly/6Gintro - this will ensure that you have the latest version of each video and also the most recent version of the 6G technologies videos as and they are added.
In this part we will look at 6G Technologies. As this is a huge topic, we are only going to discuss the technologies at a very high level. Later on we will create more detailed presentations on 6G technologies. In this part we will look at some of the 6G technologies being proposed by other researchers, organisations, vendors and operators and create a summary of the 6G technologies that are being discussed. These technologies each merit their own little presentation that we hope to make in the future
This course is part of #Free6Gtraining initiative (https://www.free6gtraining.com/)
All our #3G4G5G slides and videos are available at:
Videos: https://www.youtube.com/3G4G5G
Slides: https://www.slideshare.net/3G4GLtd
6G and Beyond-5G Page: https://www.3g4g.co.uk/6G/
Free Training Videos: https://www.3g4g.co.uk/Training/
Free 6G Training Blog: https://www.free6gtraining.com/
Innovations for Better Performing NetworksAviat Networks
This document discusses how Aviat Networks provides solutions to help mobile network operators build smarter, smaller, simpler networks with lower total cost of ownership. It describes how Aviat's portfolio of intelligent packet nodes, compact microwave routers and radios, and network management software enable operators to cost-effectively support new IP and mobile services with greater network capacity, reliability, security and simplified operations. The document also emphasizes that Aviat's solutions combine hardware and software innovations to future-proof operators' networks and help maximize performance as network demands increase.
This document provides an overview of 4G technology, including its history and evolution from previous generations of wireless networks. 4G aims to provide significantly higher data speeds of up to 100 Mbps for mobile users through technologies like OFDMA and MIMO. It will allow for new multimedia applications in areas like telemedicine and crisis response. However, 4G networks also face challenges in security and implementation costs that need to be addressed for the future of 4G.
IPLOOK is a global leader in end-to-end mobile core solutions with over 12 years of experience. They provide full stacks of 3G/4G/5G core networks including EPC, 5GC, IMS and NB-IoT cores. Their solutions are customized for MNOs, MVNOs, WISPs and private networks. IPLOOK has over 500 commercial deployments globally covering over 50 million subscribers.
This report describes the 5G requirements, use cases and technologies which are modelling the transformation of the core network and a roadmap how the 3GPP Evolve Packet Core can be modified to become the core for the 5G networks.
IPv6 deployment experience in Japan has uncovered several key issues:
1. Early mobile networks using IPv4 experienced congestion due to limited wireless bandwidth, but IPv6 has alleviated this by allowing more efficient use of network resources.
2. Mobile carriers in Japan have taken two approaches to IPv6 deployment - some use NAT/firewalls to preserve wireless resources and protect users, while others offer a separate "pure IPv6" service for a fee.
3. A successful IPv6 rollout requires addressing challenges across many aspects of network operations, backend systems, customer support, and device compatibility to ensure a smooth transition.
Ericsson brings new updates to its 5G platform. Introducing 5G network services to support operators from preparation to 5G launch. Ericsson 5G services roadmap spans across three distinct phases, Prepare, Mobilize and Launch. Through our service offerings, Operators can now evolve their 4G network and smoothly start introducing 5G, reaching new heights on their journey to 5G.
The document discusses regulatory spectrum management challenges and actions needed for cellular IoT deployment in Suriname. It notes that some frequency bands assigned for mobile coverage have technology restrictions, and the regulator lacks visibility into spectrum usage. It recommends incentivizing IoT within existing licensing frameworks, following international harmonization, conducting spectrum monitoring, studying IoT technical aspects, and setting up a working group to facilitate IoT innovation. Actions include making spectrum provisions for licensed and unlicensed IoT, preparing for deployment, and identifying future demand bands.
This document provides information about the Nortel NTTP04BF product, including how to purchase it, payment options, shipping details, warranty information, and services provided by Launch 3 Telecom related to the product. Specifically, it is a DCS module with an OC3/12 short reach interface operating at 622Mbps over 1310nm wavelength with a 2km distance.
Our joint MEF19 demo of a disaggregated network with edge computing and network slicing capabilities shows the way forward for fast and efficient 5G services. View the slide deck to discover how standardized APIs and an open ecosystem approach are key to wholesale network slicing.
The document provides an overview of Motorola's new AP 8200 Series 802.11ac access points. Key points include:
- The series includes the AP 8222 for high-density public environments and AP 8232 with modular capabilities.
- They support the latest 802.11ac standard for faster wireless speeds as well as legacy standards.
- The access points can be deployed standalone or centrally managed through Motorola controllers and management software.
- The management software provides advanced features like content caching, virtual machine management, and analytics.
- 802.11ac is forecast to become the dominant wireless standard as it provides gigabit speeds to support increasing mobile use.
- The access point series
This document discusses IPv6 deployment in wireless networks and the telco cloud. It summarizes that IPv6 is necessary as IPv4 addresses deplete. It has achieved global traffic growth but challenges remain around network complexity when introducing virtualization and services. Proper support of IPv6 is still needed in areas like OpenStack and mobile core virtualization to fully realize benefits. Future areas like 5G, fog computing and IoT will further drive the need for IPv6 deployment and management. The long term goal is full removal of IPv4 from networks.
OIF's Network Operator Working Group Chair Junjie Li spoke on delivering 400ZR, FlexE, and 112Gbps electrical to the datacom/telecom industry on September 4, 2019 during CIOE(China International Optoelectronic Exposition) event?
#400ZR #FlexE #112G #datacom #telecom #interoperability
Raman Kumar is a Cisco Certified Network Professional with over 10 years of experience in networking. He has worked on mobile packet core networks for Vodafone and Airtel. Currently he works for SRA OSS Inc. as a Mobile Packet Core Engineer, where he is responsible for configuration, maintenance and troubleshooting of Vodafone's MPLS and packet core networks. He has expertise in routing, switching, wireless networks and troubleshooting networking issues.
IPLOOK is an industry-leading end-to-end, cloud-based mobile network solutionprovider. PLOOK services cover 50 countries or regions for more than 50 million users, and publishedover 275 software copyrights and patents in core network field.
Space-air-ground integrated network (#SAGIN), the integrated network of satellite systems, aerial networks, and terrestrial communications, meets the increasing communication needs of people.
Green Future Networks: Network Energy EfficiencyIPLOOK Networks
Focusing on improving the network energy efficiency to lower the energy consumption of mobile network, the white paper comprehensively analyzes the energy-saving solutions for 5G mobile network.
The release of Green Future Networks not only indicates a direction towards the green development of global mobile network, but also enlarges the global influence of China 's telecom industry.
Learn more:
https://www.iplook.com/info/green-future-networks-network-energy-efficiency-was-officially-released-on-ngmn-i00110i1.html
This document contains a feature specification for an IPLOOK MSC/VLR system. It describes the system's functions, interfaces, protocols, services and features. These include call routing, mobility management, authentication, encryption, supplementary services, short message services, multimedia services and more. The specification provides technical details on how each function is implemented in compliance with 3G standards.
The Short Message Center Gateway(SMSC-GW) is software for receiving and sending short message. The SMSC-GW is a full implementation of GSM/CDMA SMSC function, supports SS7/SIGTRAN and SMPP V3.4. The main functions include: Mobile originating SMS, Mobile terminating SMS, Service Alerting, SS7 and SMPP inter-working , SMS polling for temporally unsuccessful SMS.
The GGSN is a gateway of GPRS support node independently developed by IPLOOK. It can be used in either the 2.5G GPRS or the 3G UMTS systems. The GGSN is a gateway for a mobile station (MS) to access the external packet data network (PDN). It is located at the junction between the GPRS/UMTS packet core network and the external PDN.
IPLOOK HSS brings the functionality of the HSS into the SAE domain. It features distributed structure and modular design, and supports many reliability functions, including in-memory data management, multi-level data backup and seamless geographic redundancy solution. The User Data and Server Process of HSS are separated to BE (End Back, subscriber data storage and operations) and FE (End Front, process the signal and service logic).
IPLOOK IMS products have supported the following features:
1.Voice call with VoLTE or VoIP tech
2.Video call with VoLTE or VoIP tech
3.Interaction Call between LTE and PSTN or 2/3G CS through E1/T1 connections
4.Interaction between IMS networks
5.Instant Messaging
6.Billing event generation for Prepaid or Postpaid for charging
7.Support IPSec ESP for signaling transport
8.Support AKAv1/AKAv2/Http Digest/SIP Digest authentication
9.Supplementary service:
Calling line Identification Presentation
Calling Line Identification Restriction
Call Forwarding Unconditional
Call Forwarding on Mobile Subscriber Busy
Call Forwarding on No Reply
Call Forwarding on Mobile Subscriber Not Reachable
Call Wait
Call Hold
Operator Determined Barring
10.3rd party call
11.Fax T.38 service
12.Work with RCS to support Presence information
13.Interaction with SMC&SMGW to support SMS service
This document provides information on IPLOOK's EPC products, including feature lists, roadmap, product strategy, and technical support. The main EPC products are the MME, SGW, PGW, and HSS. Key features include mobility management, session management, QoS control, and standards-based interfaces. Deployment strategies include compact and virtualized EPC solutions. The product roadmap and license strategy aim to meet various capacity and throughput needs. Technical support includes training, warranty, and rapid fault response times.
The Mobility Management Entity (MME) represents the control plane for the User Equipments(UEs) to access the 4G LTE, or EPS network. From a UE’s perspective, signaling for access control, location tracking, and bearer set up is performed via the MME.
The document discusses IPLook's vCore virtualization platform for network functions. It describes how the platform uses standard IT hardware and the Linux operating system to virtualize network functions using KVM virtualization. It supports both proprietary and standard virtualized network functions (VNFs) like virtualized Evolved Packet Core (vEPC) and virtualized IP Multimedia Subsystem (vIMS). Key features of the platform include enhanced packet forwarding using DPDK, flexible element management and orchestration with OpenStack, high availability of VNFs using redundancy, and resource pooling and load balancing of VNF instances.
With the increasing mobile connections, the efficiency use of limited frequency band becomes one primary assignment for operators. Correspondingly, new value added services are constantly emerging widening the range and types of service offerings and pricing plans. The introduction of Mobile Virtual Network Operator (MVNO) is seen as a natural progression towards enhancing free market principles and contributing to the efficient use of existing telecommunication infrastructure.
A Study of Variable-Role-based Feature Enrichment in Neural Models of CodeAftab Hussain
Understanding variable roles in code has been found to be helpful by students
in learning programming -- could variable roles help deep neural models in
performing coding tasks? We do an exploratory study.
- These are slides of the talk given at InteNSE'23: The 1st International Workshop on Interpretability and Robustness in Neural Software Engineering, co-located with the 45th International Conference on Software Engineering, ICSE 2023, Melbourne Australia
OpenMetadata Community Meeting - 5th June 2024OpenMetadata
The OpenMetadata Community Meeting was held on June 5th, 2024. In this meeting, we discussed about the data quality capabilities that are integrated with the Incident Manager, providing a complete solution to handle your data observability needs. Watch the end-to-end demo of the data quality features.
* How to run your own data quality framework
* What is the performance impact of running data quality frameworks
* How to run the test cases in your own ETL pipelines
* How the Incident Manager is integrated
* Get notified with alerts when test cases fail
Watch the meeting recording here - https://www.youtube.com/watch?v=UbNOje0kf6E
Do you want Software for your Business? Visit Deuglo
Deuglo has top Software Developers in India. They are experts in software development and help design and create custom Software solutions.
Deuglo follows seven steps methods for delivering their services to their customers. They called it the Software development life cycle process (SDLC).
Requirement — Collecting the Requirements is the first Phase in the SSLC process.
Feasibility Study — after completing the requirement process they move to the design phase.
Design — in this phase, they start designing the software.
Coding — when designing is completed, the developers start coding for the software.
Testing — in this phase when the coding of the software is done the testing team will start testing.
Installation — after completion of testing, the application opens to the live server and launches!
Maintenance — after completing the software development, customers start using the software.
Microservice Teams - How the cloud changes the way we workSven Peters
A lot of technical challenges and complexity come with building a cloud-native and distributed architecture. The way we develop backend software has fundamentally changed in the last ten years. Managing a microservices architecture demands a lot of us to ensure observability and operational resiliency. But did you also change the way you run your development teams?
Sven will talk about Atlassian’s journey from a monolith to a multi-tenanted architecture and how it affected the way the engineering teams work. You will learn how we shifted to service ownership, moved to more autonomous teams (and its challenges), and established platform and enablement teams.
Most important New features of Oracle 23c for DBAs and Developers. You can get more idea from my youtube channel video from https://youtu.be/XvL5WtaC20A
UI5con 2024 - Boost Your Development Experience with UI5 Tooling ExtensionsPeter Muessig
The UI5 tooling is the development and build tooling of UI5. It is built in a modular and extensible way so that it can be easily extended by your needs. This session will showcase various tooling extensions which can boost your development experience by far so that you can really work offline, transpile your code in your project to use even newer versions of EcmaScript (than 2022 which is supported right now by the UI5 tooling), consume any npm package of your choice in your project, using different kind of proxies, and even stitching UI5 projects during development together to mimic your target environment.
8 Best Automated Android App Testing Tool and Framework in 2024.pdfkalichargn70th171
Regarding mobile operating systems, two major players dominate our thoughts: Android and iPhone. With Android leading the market, software development companies are focused on delivering apps compatible with this OS. Ensuring an app's functionality across various Android devices, OS versions, and hardware specifications is critical, making Android app testing essential.
E-Invoicing Implementation: A Step-by-Step Guide for Saudi Arabian CompaniesQuickdice ERP
Explore the seamless transition to e-invoicing with this comprehensive guide tailored for Saudi Arabian businesses. Navigate the process effortlessly with step-by-step instructions designed to streamline implementation and enhance efficiency.
Software Engineering, Software Consulting, Tech Lead, Spring Boot, Spring Cloud, Spring Core, Spring JDBC, Spring Transaction, Spring MVC, OpenShift Cloud Platform, Kafka, REST, SOAP, LLD & HLD.
Transform Your Communication with Cloud-Based IVR SolutionsTheSMSPoint
Discover the power of Cloud-Based IVR Solutions to streamline communication processes. Embrace scalability and cost-efficiency while enhancing customer experiences with features like automated call routing and voice recognition. Accessible from anywhere, these solutions integrate seamlessly with existing systems, providing real-time analytics for continuous improvement. Revolutionize your communication strategy today with Cloud-Based IVR Solutions. Learn more at: https://thesmspoint.com/channel/cloud-telephony
Need for Speed: Removing speed bumps from your Symfony projects ⚡️Łukasz Chruściel
No one wants their application to drag like a car stuck in the slow lane! Yet it’s all too common to encounter bumpy, pothole-filled solutions that slow the speed of any application. Symfony apps are not an exception.
In this talk, I will take you for a spin around the performance racetrack. We’ll explore common pitfalls - those hidden potholes on your application that can cause unexpected slowdowns. Learn how to spot these performance bumps early, and more importantly, how to navigate around them to keep your application running at top speed.
We will focus in particular on tuning your engine at the application level, making the right adjustments to ensure that your system responds like a well-oiled, high-performance race car.
What is Master Data Management by PiLog Groupaymanquadri279
PiLog Group's Master Data Record Manager (MDRM) is a sophisticated enterprise solution designed to ensure data accuracy, consistency, and governance across various business functions. MDRM integrates advanced data management technologies to cleanse, classify, and standardize master data, thereby enhancing data quality and operational efficiency.
Introducing Crescat - Event Management Software for Venues, Festivals and Eve...Crescat
Crescat is industry-trusted event management software, built by event professionals for event professionals. Founded in 2017, we have three key products tailored for the live event industry.
Crescat Event for concert promoters and event agencies. Crescat Venue for music venues, conference centers, wedding venues, concert halls and more. And Crescat Festival for festivals, conferences and complex events.
With a wide range of popular features such as event scheduling, shift management, volunteer and crew coordination, artist booking and much more, Crescat is designed for customisation and ease-of-use.
Over 125,000 events have been planned in Crescat and with hundreds of customers of all shapes and sizes, from boutique event agencies through to international concert promoters, Crescat is rigged for success. What's more, we highly value feedback from our users and we are constantly improving our software with updates, new features and improvements.
If you plan events, run a venue or produce festivals and you're looking for ways to make your life easier, then we have a solution for you. Try our software for free or schedule a no-obligation demo with one of our product specialists today at crescat.io
GraphSummit Paris - The art of the possible with Graph TechnologyNeo4j
Sudhir Hasbe, Chief Product Officer, Neo4j
Join us as we explore breakthrough innovations enabled by interconnected data and AI. Discover firsthand how organizations use relationships in data to uncover contextual insights and solve our most pressing challenges – from optimizing supply chains, detecting fraud, and improving customer experiences to accelerating drug discoveries.
UI5con 2024 - Keynote: Latest News about UI5 and it’s EcosystemPeter Muessig
Learn about the latest innovations in and around OpenUI5/SAPUI5: UI5 Tooling, UI5 linter, UI5 Web Components, Web Components Integration, UI5 2.x, UI5 GenAI.
Recording:
https://www.youtube.com/live/MSdGLG2zLy8?si=INxBHTqkwHhxV5Ta&t=0
2. www.iplook.com
3G/4G/5G Core network
Brief Introduction
50+
3G/4G/5G core network, including MME/ HSS/ HLR/ SGW/
PGW/ GGSN/IMS/SMSC/5GC based on NFV technology
2012
• Over 7 years, IPLOOK has accumulated
commerical experiences of telecommunication
industry with 3G/4G/5G core network
• 50+ employees with over 80% are R&D or
technical support engineers
• Dedicates on 3G/4G/5G core network
• EPC (MME, SGW, PGW, HSS, PCRF)
• IMS
• 3G elements (HLR,GGSN)
• 5GC
• Field-proven products in China, South-east Asia, Africa, Middle east countries etc.
• Standard and High availability 3G/4G/5G products and customized services for : MVNO, WISP, MNO,
Vertical Networks
4. www.iplook.com
3G/4G/5G Core network
Products
• 3G network elements include HLR
and GGSN
• High Availability or N+1 backup
support
• LTE EPC in 4G mobile communication
• SaaS and Virtualized core support
X86 servers or even cloud
• Better scalability to support both small
priviate networks and mobile
operator's networks
• Interoperability Test with various
eNodeB vendors
3G Core 4G Core 4G IMS
• LTE IMS in 4G mobile communication
• SaaS and Virtualized core support
X86 servers or even cloud
• Better scalability to support both small
priviate networks and mobile
operator's networks
• VoLTE functions supported
5. www.iplook.com
3G/4G/5G Core network
Products
• NB-IoT core for smart cities, like
metering, sharing bicycle, Asset's
location etc.
• With C-SGN(ehanced MME, SGW,
PGW), NB-IoT features are supported
• PSM mode, Extended periodic
timer,eDRX parameter,
• MEC GW for densly populated
areas like shopping mall, Campus,
smart factories.
• Based on 4G mobile network, the
local data are able to breakout in
MEC GW and relief the load in
public network
C-SGN MEC GW
• Conform to 3GPP R15 standard
• Standalone architecture of 5G network
• Based on NFV technology
• With MEC(Mobile Edge computing)
feature over 5G core network
• Support the combination of 3G, 4G,
5G network elements like
HLR/HSS/UDM, GGSN/PGW/UPF etc.
5G C
6. www.iplook.com
3G/4G/5G Core network
Solutions
5G NR supported
Solution for WISP
As is shown in the diagram, the network provides
high speed internet services to users. In some
urban area which the fiber doesn't reach, the
operator can provide wireless internet service by
IPLOOK's network. It corperates vEPC core
network, small cell or compact eNodeB and CPE.
Moreover, the vEPC supports the 5G NR(also
called gNB) to form the 5G NSA architecture.
7. www.iplook.com
3G/4G/5G Core network
Solutions
Solution for MVNO
This is a total solution for Full MVNO
with HSS/HLR, PGW/GGSN, PCRF etc.
With these core network elements, the
MVNO is able to configure its own
subscribers and provide data or short
message services. The STP and DRA
could make sure MVNO's network is
able to interconnect with multiple
operators.
8. www.iplook.com
3G/4G/5G Core network
Solutions
Solution for MNO
The solution for MNO incorperates EPC, IMS,
MGW,BOSS etc. In this technical solution,
IPLOOK core network is a virtualised core,
supporting a wide range of deployment
options from fully virtualised systems to
traditional physical servers. As a result of
Centralised and distributed provision are
combined, it enables the high availability, better
user experience and lower investment.
9. www.iplook.com
3G/4G/5G Core network
Solutions
Solution for Vertical Networks
The solution for vertical networks scales with
your business. It ranges from hundreds of to
thousands of users. IPLOOK provides all of the
necessary nodes to enable the 4G data, voice
etc. In some cases, IPLOOK's private core
network is able to interconnect with the public
core network infrastructure which is built by 3rd
party.
10. www.iplook.com
3G/4G/5G Core network
Solutions
Solution for IoT
I P LO O K 's I o T s o l u t i o n i s N B - I o T c o re
commercially used in 2016. In 5G application
scenario, IoT is the an extremely important part
so called mMTC. IPLOOK's NB-IoT products
confrom to 3GPP R13 with PSM mode,
Extended periodic timer feature. It incorperats
C-SGN and HSS with API interface to connect
with IoT platform.
11. www.iplook.com
3G/4G/5G Core network
Strengths
Cases all
over the
world
Save
CPEX &
OPEX
Customiz-
ed design
The total
core
solution
With its NEV technology, IPLOOK's core network are all
software. As a result, the simlicity and convenience of
maintainance and deployment could be achieved. Finally,
it saves the CAPEX & OPEX.
It has 3G, 4G and 5G core network to make sure a
smooth upgradation. At the same time, IPLOOK support
the eNodeB from third party whose products are stanard.
IPLOOK has accumulated a serial of cases in the last 7
years. Its 3G/4G/5G core network comforms to 3GPP
standard and could be easily integrated with network
from third party.
Custiomized services are provided to satisify the
requirements of vertical networks or MVNOs.
15. www.iplook.com
3G/4G/5G Core network
References
• Full MVNO solution with HSS/HLR, PGW/GGSN, PCRF for a MVNO in Hongkong
• Combined HSS/HLR implement for a MVNE in Hongkong
• vEPC for a WISP in Cambodia
• LTE network for communication among Islands in Tokelau
• LTE coverage for 31 regions in Middle Eastern countries
• Vertical Networks for mining in north-east of China
• vEPC on Cloud provision in North America
• vEPC+Billing in Kenya for WISPs